The article claims that scientists at Liverpool’s John Moores University are currently incubating a baby Apotosaurus nicknamed "Spot", after retrieving the creature’s DNA from a fossil and injecting it into the womb of an ostrich.

"Those in the scientific community say the dinosaur cloning – the first ever of its kind – is a milestone for genetic engineering," reads the article posted on news-hound.org, a site that has previously fooled the internet with its story about a "Shipwrecked British woman saved by Google Earth".

The hoax even includes a picture of the supposed baby dinosaur (it’s actually a very young baby kangaroo) as well as fabricated quotations from scientists at the University, one of which just happens to share the same name as the survivor in the fake shipwreck story. From the article:

"I used to think this kind of thing could only happen in the movies," said Dr. Gemma Sheridan, a LJMU chemistry professor. "But we’re making it happen right here in our lab. It’s astounding."

Interestingly, there is actually a real Gemma Sheridan, but she is neither a shipwreck survivor nor a chemistry professor. Instead, she happens to just be a friend of the owners of the site, who apparently keep on using her name as a joke (for which she attracts a fair bit of attention on Twitter).

The story has certainly caused a stir on social media sites, with users sharing the story and commenting that "this is not going to end well". There are also the expected comparisons to Jurassic Park – best seen as a testament to the just-plausible-enough-sounding science at the heart of the story.

In the film, scientists clone dinosaurs by extracting dinosaur blood (and DNA) from mosquitoes fossilised in amber. Unfortunately, this method of bringing back to life ancient ‘ thunder lizards’ was thoroughly debunked in September last year, when a group of scientist declared that they had put "the final nail in the Jurassic Park coffin".

The researchers from Manchester University attempted to extract DNA from insects preserved in copal (an intermediate stage between tree resin and amber) that ranged in age from 60 to 10,600 years old. Using the most advanced extraction methods available (which have previously been successful in retrieving DNA from other types of preserved life forms) they were completely unable to reclaim any DNA – ancient or otherwise.

This is simply because DNA molecules just aren’t that tough. They have a half-life of only about 521 years and various environmental conditions – including temperature, microbes, and oxygenation – will only speed up the process of degradation. And although the oldest authentic DNA sequence is thought to be about half a million years old, this is still 65 million years too young to have anything to do with dinosaurs.

For fans of Jurassic Park, this is probably mixed news - dinosaurs going on a rampage on a remote island certainly sounds pretty terrifying but it would also be a sci-fi dream come true. If you're still determined to get some face time with a Velociraptor then forget about the DNA and try building a time machine instead.